Abstract
Type 1 diabetes mellitus (DM1) and dysfunction of the thyroid gland (TG) are the most common endocrine diseases, which are interrelated. However, the molecular mechanisms of thyroid dysfunction in DM1 and the role of adenylyl cyclase signaling system (ACSS) in this process remain poorly understood. Typically for studying etiology and pathogenesis of thyroid diseases in DM1 the models of acute DM1 induced by high doses of streptozotocin (STZ) are used. At the same time, a suitable model for this purpose is the model of mild DM1 initiated by moderate doses of STZ, which more closely resembles human DM1. The aim of this study was a comparative study of the functional state of the thyroid gland in rats with 30-day acute DM1 induced by injection of STZ at a dose of 65 mg/kg, and in rats with 30- and 210-day mild DM1 induced by three consecutive injections of STZ at medium doses (30–40 mg/kg). For this purpose in diabetic animals the levels of thyroid hormones and TSH and the functional activity of hormone-sensitive ACSS in membranes isolated from thyroid gland were studied. It was shown that in blood of rats with acute DM1 the levels of fT4, fT3, and tT3 were decreased by 45, 23 and 19%, respectively, while the level of TSH did not change significantly. In rats with the 30-day mild DM1 the concentration of fT4 was decreased by 32%, while the levels of tT4, tT3, and TSH were similar to that in control. In rats with prolonged mild DM1 after 150 and 210 days following the first treatment with STZ the levels of tT4, fT4, and tT3 were significantly reduced, but the concentration of TSH in rats with 210-day mild DM1 was increased by 119%. The results obtained in the study of thyroid status and TSH levels in rats with prolonged mild DM1 are in good agreement with the data obtained in the study of thyroid diseases in patients with DM1. It was found that the AC basal activity in the membranes isolated from the thyroid gland of diabetic rats did not change, except for the rats with the prolonged mild DM1 where this activity was increased by 21%. In all groups of diabetic rats the decrease of AC stimulating effects of GppNHp (10−5 M) and TSH (10−8 M) was found, and in the rats with prolonged mild DM1 the AC effect of PACAP-38 (10−6 M) was also reduced. The decrease of AC effect of TSH varied among different groups of the diabetic animals: in the rats with acute DM1 this effect was reduced by 46% and in the rats with 30- and 210-day mild DM1-by 18 and 34%. Thus, it was concluded that the key cause of the thyroid resistance to TSH under conditions of DM1 is a weakening of the signal transduction generated by TSH via the ACSS.
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More From: Journal of Evolutionary Biochemistry and Physiology
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